化学发光免疫分析检测人血清中的癌胚抗原

基于辣根过氧化物酶(HRP)催化H2O2氧化3-(4-羟苯基)丙酸(PHPPA),生成能发荧光的3-(4-羟苯基)丙酸二聚体.在乙腈介质中,在增强剂眯唑参与下,与双[2,4,6-三氯苯基]草酸酯(TCPO)和H2O2反应产生强化学发光.用辣根过氧化物酶(HRP)标记癌胚抗原(CEA)单克隆抗体,通过CEA的双抗夹心免疫...     

氯化血红素作为过氧化物模拟酶与HRP的比较研究

用荧光光谱和紫外－可见吸收光谱研究了氯化血红素（hemin)催化过氧化氢与对羧基苯丙酸反应的动力学和反应产物,表明hemin同时具有模拟过氧化物酶、过氧化氢酶的活性,在反应过程中hemin自身被氧化分解。hemin催化反应的产物除与天然的辣根过氧化物酶（HRP）催化的产物相同（λex/λem=310nm/406nm）外,还有激发峰在258nm和300nm,发射峰在360nm的荧光物质。通过对产物光谱特性的比较,研究了hemin和HRP的特异性差异。该研究结果对进一步筛选和研究高特异性过氧化物模拟酶具有重要的指导意义。     

葡萄糖浓度的酶联荧光毛细分析法测定

该文以葡萄糖氧化酶和辣根过氧化物酶为催化剂,使含有对甲基酚的葡萄糖溶液体系通过酶偶联催化反应生成荧光物质,从而实现对葡萄糖浓度的测定。优化的实验条件为:反应时间20 min;NH3-NH4Cl缓冲溶液(pH 10.4);对甲基酚浓度30.0μmol/L。分别采用荧光毛细分析法和荧光光谱分析法测定了相同浓度的系列葡萄糖溶液的荧光强度。在5.0~500.0μmol/L范围内,两种方法测得的荧光强度均与葡萄糖浓度的对数成正比。通过对比测试结果分析了两种方法的优缺点。     

Determination of arachidonic acid based on the prostaglandin H synthase catalyzed reaction

This article presents a novel method of arachidonic acid (AA) determination based on the reaction catalyzed by prostaglandin H synthase (PGHs). The deoxygenated and nondeoxygenated (as control) buffers were used to obtain the PGHs preparations from bovine vesicular glands by two different methods. The higher specific activity was observed for solubilized preparations obtained by ultracentrifugation and deoxygenated buffers. The preparations obtained by Ca²⁺ treatment demonstrated higher stability of PGHs during its storage at −15°C. To record the initial rate of AA transformation, a spectrophotometric assay of PGHs cyclo-oxygenase and peroxidase activities was developed using adrenaline and ABTS as electron donors. No oxidation of A BTS was observed in the reaction of AA transformation catalyzed by the PGHs from bovinevesicular glands. However, this electron donor was successfully used in the reaction catalyzed by PGHs from sheep vesicular glands. No chemilum inescence was recorded in the reaction of AA transformation catalyzed by PGHs from bovine vesicular glands in the presence of luminol. The chemiluminescent intensity was measured after addition of hydrogen peroxide allowing quantitative assay of AA to be performed.     

甲烷氧化菌素-铜配合物催化过氧化氢氧化对苯二酚

为了探讨甲烷氧化菌素(Mb)-铜配合物(Mb-Cu)模拟过氧化物酶的可行性, 利用HP20大孔树脂、 Supelco LC-C₁₈固相萃取和固定化金属亲和层析从甲基弯菌IMV3011中分离纯化得到Mb. 铬天青比色法显示Mb具有铜亲和性. 通过液相色谱-飞行时间质谱联用仪、 紫外光谱和荧光光谱对Mb结构进行了表征. 使用Mb-Cu配合物作为过氧化物酶模拟物, 利用紫外-可见分光光度法研究了Mb-Cu催化过氧化氢氧化对苯二酚的动力学. 考察了体系温度、 Mb-Cu添加量及过氧化氢浓度对催化反应的影响, 发现Mb-Cu符合生物催化剂条件影响的一般规律, 但比生物酶具有更高的热稳定性. 研究结果表明, Mb-Cu可作为催化氧化对苯二酚的过氧化物酶模拟酶.     

Peroxidase-catalysed fluorescence reaction using tyrosine as substrate

Summary The fluorescence reaction using the catalytic effect of horse radish peroxidase on the oxidation of tyrosine by hydrogen peroxide has been investigated. The reaction product fluoresces at 412 nm (excitation at 316 nm). Microamounts of hydrogen peroxide and tyrosine can be determined with good accuracy and reproducibility. The proposed method has been used to determine glucose and tyrosine in human serum. The results are satisfactory. The characteristics of tyrosine have been compared with those of homovanillic acid in the enzyme-catalysed reaction system.

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Peroxidase-katalysierte Fluorescenzreaktion mit Tyrosin als Substrat

     

Oxidation of Dibenzothiophene Catalyzed by Hemoglobin and Other Hemoproteins in Various Aqueous-Organic Media

Biocatalytic oxidation of dibenzothiophene (a model of organic sulfur in coal) with hydrogen peroxide was investigated. It was found that various hemoproteins, both enzymic (e.g., horseradish peroxidase) and nonenzymic (e.g., bovine blood hemoglobin), readily oxidized dibensothiophene to its S-oxide and, to a minor extent, further to its S-dioxide (sulfone). This process catalyzed by hemoglobin (a slaughterhouse waste protein) was studied in a number of monophasic aqueousorganic mixtures. Although hemoglobin was competent as an oxidation catalyst even in nearly dry organic solvents (with protic, acidic solvents being optimal), the highest conversions were observed in predominantly aqueous media. The hemoglobin-catalyzed oxidation of dibenzothiophene at low concentrations of the protein stopped long before all the substrate was oxidized. This phenomenon was caused by inactivation of hemoglobin by hydrogen peroxide that destroyed the heme moiety. The maximal degree of the hemoglobin-catalyzed dibenzothiophene oxidation was predicted, and found, to be strongly dependent on the reaction medium composition.     

Peroxidase-like catalytic activity of Mn- and Fe-tetrakis(4-carboxyphenyl)porphines bound to aminopropyl-glass bead in oxidative reaction of heterocyclic amines

Fe- or Mn-tetrakis(4-carboxyphenyl)porphine (Fe- and Mn-TCPP) bound to aminopropyl-glass bead (Fe- and Mn-TCPP_gs) was examined for the peroxidase (POD)-like function in order to develop a solid catalyst which can exhibit POD-like activity without adsorbing heterocyclic amines (HCAs). Mn-TCPP in aqueous solution had only a slight POD-like catalytic activity on HCAs (IQ and MeIQ). As for Fe-TCPP, it was impossible to examine the POD-like activity since it reacted with hydrogen peroxide in a liquid reaction system. However, both Fe- and Mn-TCPP when immobilized on aminopropyl-glass bead via peptide bond (Fe- and Mn-TCPP_gs), catalyzed the oxidative reaction of mutagenic HCAs with hydrogen peroxide. The catalytic activity of Fe- and Mn-TCPP_gs was investigated in more detail using as a substrate IQ and MeIQ which were oxidized more rapidly among the tested HCAs. Consequently, the optimal conditions for the oxidative reaction catalyzed by Fe- and Mn-TCPP_gs were determined. In addition, ESI-mass and absorption spectra of oxidation products of IQ and MeIQ showed that they are dimers. Thus, it was demonstrated that a solid catalyst with POD-like activity can be obtained by immobilizing Fe- and Mn-TCPPs on aminopropyl-glass beads.     

Amperometric Determination of Galactose,Lactose and Dihydroxyacetone Using Galactose Oxidase in a Flow Injection System with Immobilized Enzyme Reactors and On-Line Dialysis

Abstract

A flow injection manifold containing a dialyzer and reactors with immobilized galactose oxidase and peroxidase was used for the determination of galactose in urine, lactose in milk and dihydroxyacetone in a biotechnological reaction medium. The hydrogen peroxide which is formed by the galactose oxidase reaction was detected by amperometric reduction of a mediator. The latter had been produced from hydrogen peroxide in a peroxidase catalyzed reaction. The hydrogen peroxide detection step was studied with several mediators and hexacyanoferrate (II) was selected. An ion exchange HPLC procedure was used to purify the galactose oxidase, in particular from catalase, and the kinetics and the selectivity of a reactor containing the immobilized enzyme was investigated. Columns for removal of certain interferents such as ascorbic acid were used in the determination of galactose in urine. The response to galactose standards was linear from the detection limit of 2 μM to 60 mM. The throughput was 45 samples per hour and the relative standard deviation 0.4%.     

Ru(III)-EDTA catalyzed oxidation of ascorbic acid by hydrogen peroxide in aqueous solution

The kinetics of oxidation of ascorbic acid to dehydroascorbic acid by hydrogen peroxide catalyzed by ethylenediaminetetraacetatoruthenate(III) has been studied over the pH range 1.50 – 2.50, at 30°C and μ = 0.1 M KNO₃. The reaction has a first-order dependence on ascorbic acid and Ru(III)-EDTA concentrations, an inverse first-order dependence on hydrogen ion concentration, and is independent of hydrogen peroxide concentration in the pH range studied. A mechanism has been proposed in which ascorbate anion forms a kinetic intermediate with the catalyst in a pre-equilibrium step. Ruthenium(III) is reduced to ruthenium(II) in a rate-determining step and is reoxidized with hydrogen peroxide back to the Ru(III) complex in a fast step.     

Enantioselective Sulfoxidations Catalyzedby Horseradish Peroxidase, ManganesePeroxidase, and Myeloperoxidase

 Horseradish peroxidase (HRP), myeloperoxidase (MPO), and manganese peroxidase (MnP) have been shown to catalyze the asymmetric sulfoxidation of thioanisole. When H₂O₂ was added stepwise to MPO, a maximal yield of 78% was obtained at pH 5 (ee 23%), whereas an optimum in the enantiomeric excess (32%, (R)-sulfoxide) was found at pH 6 (60% yield). For MnP a yield of 18% and a high enantiomeric excess of 91% of the (S)-sulfoxide were obtained at pH 5 and a yield of 36% and an ee of 87% at pH 7.0. Optimization of the conversion catalyzed by horseradish peroxidase at pH 7.0 by controlled continuous addition of hydrogen peroxide during turnover and monitoring the presence of native enzyme as well as of intermediates I, II, and III led to the formation of the sulfoxide in high yield (100%) and moderate enantioselectivity (60%, (S)-sulfoxide).     

Asymmetric Sulfoxidation Catalyzed by a Vanadium-Containing Bromoperoxidase

A vanadium-containing bromoperoxidase (VBrPO) from the alga Corallina officinalis has been shown to catalyze the stereoselective oxidation of some aromatic bicyclic sulfides to the corresponding (S)-sulfoxides in high (up to 91%) ee. Hydrogen peroxide was found to have a large effect on the catalyzed reaction, most likely due to an inhibition of VBrPO. High optical and chemical yields were found to be favored by a continuous slow addition of hydrogen peroxide to keep a low excess. The reaction gives no overoxidation to sulfone, and its stereochemistry is the opposite as compared to that previously found with the heme-containing chloroperoxidase (CPO) from Caldariomyces fumago.     

Oscillatory dynamics protect enzymes and possibly cells against toxic substances

We have used the oscillating peroxidase-oxidase (PO) reaction as a model system to study how oscillatory dynamics may affect the influence of toxic reaction intermediates on enzyme stability. In the peroxidase-oxidase reaction reactive intermediates, such as hydrogen peroxide, superoxide, and hydroxyl radical are formed. Such intermediates inactivate many cellular macromolecules such as proteins and nucleic acids. These reaction intermediates also react with peroxidase itself to form an inactive enzyme. The fact that the PO reaction shows bistability between an oscillatory and a steady state gives us a unique possibility to compare such inactivation when the system is in one of these two states. We show that inactivation of peroxidase is slower when the system is in an oscillatory state, and using numerical simulations we provide evidence that oscillatory dynamics lower the average concentration of the reactive intermediates.     

THE OXIDATION OF ASCORBATE BY ELECTRON AFFINIC DRUGS AND CARCINOGENS

Abstract— The nitrobenzenes, the carcinogens 4-nitropyridine- N -oxide and 4-nitro-quinoline- N -oxide as well as the nitrofurans, also known to be carcinogenic, have been found to enhance the reaction of ascorbate with oxygen. The reaction results in the oxidation of ascorbate, the production of dehydroascorbate, superoxide radical, peroxide and water. The drugs are not reduced to stable intermediates during the oxidation but are recycled to their original state. The oxygen consumption is partially inhibited by either superoxide dismutase or catalase. If both superoxide dismutase and catalase are included in the reaction mixture, total oxygen consumption was equal to the amount expected for oxidation of ascorbate to dehydroascorbate and reduction of oxygen to water. The oxygen consumption was inhibited by ferricytochrome c. Semiquinones, nitro and hydroxylamine radicals, produced by electron transfer from ascorbate, reduce ferricytochrome c. These oxygen reactive radicals are responsible for the stimulation of oxygen utilization and ascorbate oxidation. In addition we have found that Ehrlich cells, containing catalase and superoxide dismutase, inhibit the drug catalyzed oxidation of ascorbate. The presence of cyanide, known to inhibit catalase and superoxide dismutase, abolished the cell effect for most of the drugs tested.     

Tantalum(V) or niobium(V) catalyzed oxidation of sulfides with 30% hydrogen peroxide

Tantalum(V) and niobium(V) are effective catalysts for the oxidation of sulfides with 30% hydrogen peroxide. The reaction of sulfides with 30% hydrogen peroxide catalyzed by tantalum(V) chloride or niobium(V) chloride in acetonitrile, i-propanol or t-butanol selectively provided the corresponding sulfoxides in high yields. The corresponding sulfones are efficiently obtained from the reaction of sulfides with 30% hydrogen peroxide in methanol catalyzed by tantalum(V) or niobium(V).     

Use of the o-phenylenediamine fluorescence system in the enzymatic assay of serum uric acid.

A manual enzymatic method is described for sensitive fluorometric determination of uric acid in human serum. This method is based on an enzymatic reaction with uricase to form hydrogen peroxide from uric acid and the following oxidation of o-phenylenediamine with peroxidase and hydrogen peroxide for the production of a fluorescence compound. The specificity and the selectivity in the method are due to the uricase reaction and the fluorometry, respectively. The formed fluorescence in the reaction mixture is measured at 410 nm (an excitation) and 550 nm (an emission). This enzymatic method can determine uric acid at 30-1000 microM, with a between-assay relative standard deviation of 4.35% or less. A good correlation is obtained between the present method and the colorimetric kit method.     

Reaction of hydrogen peroxide with tetraazamacrocyclic complex of iron(II) in the presence of nitrogeneous bases

The kinetics of hydrogen peroxide oxidation of Fe(II) to Fe(III) complexed with tetraazamacrocyclic ligand was studied, and a decrease in the reaction rate was observed in the presence of nitrogeneous bases, capable of forming hexacoordinated complexes with tetraazamacrocyclic compound of iron(II). The rate of reaction is proprotional to the concentration of the iron complex and hydrogen peroxide and inversely proportional to the concentration of the nitrogeneous base. A mechanism for the course of the reaction has been proposed, and the rate constants of the oxidation of the pentacoordinated iron(II) complexes have been calculated. It was shown that the addition of the fifth donor particle (in particular imidazole) activates the iron(II) atom with respect to the oxidation reaction. It was found that a tetraazamacrocyclic complex of iron(II) is capable of displaying a peroxidase type activity.Translated from Teoreticheskaya Eksperimental'naya Khimiya, Vol. 22, No. 3, pp. 309–316, May–June, 1986.     

Optimization of HPLC technique for determining catalytic parameters of D-amino acid oxidase on cephalosporin C

Approximately half of cephalosporin antibiotics of different generations are produced from 7-aminocephalosporanic acid, which to date is prepared by organic synthesis. Instead of organic synthesis, a two-step enzymatic process is gradually being developed. The first step is enzymatic oxidation of natural antibiotic cephalosporin C by D-amino acid oxidase (DAAO). Yeast enzymes are used for this purpose due to the highest activity on cephalosporin C. The standard technique of determining the activity of D-amino acid oxidase is based on determining the concentration of released hydrogen peroxide using horseradish peroxidase. During cephalosporin C oxidation, hydrogen peroxide is involved in the spontaneous nonenzymatic reaction with the intermediate product. Thus, monitoring the substrate consumption with high-performance liquid chromatography (HPLC) is the most correct way to determine the activity. In this paper, we have optimized the HPLC technique of determining the cephalosporin C concentration during its oxidation with D-amino acid oxidase in the reaction mixture. Using the optimized technique, we have determined the catalytic parameters for wild-type and mutant D-amino acid oxidase on cephalosporin C.     

动力学分析方法检测酶反应活性中间体的研究

提出了一种检测酶反应活性中间体的动力学新方法，利用中间体的反应活性，加入合适的竞争剂使中间体在转化产物的同时能与竞争剂反应，监测中间体与竞争剂反应的动力学过程的以获得中间体信息，该法既能研究自由基中间体，也能研究非自由基中间体，便于研究快反应和跟踪动态过程，用该法对辣根过氧化酶催经过氧化氢氧化去甲肾上腺素的中间过程进行了研究。     

Catalytic effects of peroxidase-like metalloporphyrins on the fluorescence reaction of homovanillic acid with hydrogen peroxide

Summary The catalytic effects of peroxidase-like metalloporphyrins (Me-P) on the fluorescence reaction of homovanillic acid with hydrogen peroxide have been studied. These metalloporphyrins are the complexes of Mn with tetrakis(carboxyphenyl)porphyrin (TPPC) and trikis(sulfophenyl)porphyrin(TPPS₃), Fe, Co, Ni, Cu, Zn, Ag and Sn with tetrakis(sulfophenyl)porphyrin(TPPS₄), and Rh, Pt and Pd with tetrakis(N-methylpyridiniumyl)porphyrin-(TMPyP) and hemin. The complexes of Mn, Fe, Co, Rh and Pt with porphyrins catalyzed the formation of the fluorescence product, while the complexes of Ni, Cu, Zn, Ag, Sn and Pd did not. Traces of hydrogen peroxide and glucose can be determined using the metalloporphyrins. The characteristics of peroxidase-like metalloporphyrins have been compared with those of horseradish peroxidase (HRP).